Paring machine



March 22, 1932. H MEHSERLE 1,850,633

PARING MACHINE Homey H. MEHSERLE PARING MACHINE March 22, 1932.

Filed Dec. 20, 1927 10 Sheets-Sheet 2 March 22, 1932. H MEHSERLE 1,850,633r

PARING MACHINE Filed Dc, 20, 1927 10 Sheets-Sheet 3 Inventor T5 4lamb Mehser'le March 22, 1932. H. MEHSERLE PARING MACHINE Filed Deo. 20, 1927 10 Sheets-Sheet 4 Inventor .Q\\\\\ mw mv wm, s w mH .Nm

`Nlarcll 22,-; 1932. H, MEHSERLE 1,850,633

PARING MACHINE Filed Dec. 20 1927 `10 Sheets-Sheet 5 Inventor Henri/5 Neherla By f mms3?.

H. MEHSERLE PARING MAcHNE March 22, 1932.

vFiled Dec. 20. 1927 10 Sheets-Sheet 6 Hamg Viehsere By Y W- @f/Harney 10 Sheets-Sheel 7 Inventor Henr mehserlc A orney H. MEHSERLE PARING MACHINE Filed Dec.

March 22, 1932. H. MEHSERLE,

PARING MACHINE Filed Deo, 20. 1927 10 Sheets-Sheet 8 Inventor Henr mehscrle M tlorney March 22, 1932. H. MEHSERLE l 1,850,633

PARING MACHINE l Filed Dec. 20, 1927 10 Sheets-Sheet 9 v if? Inventor Henr Meherle torney I 133 lm /3/ 150 E L i" la@ T "w fm n a @Wummlllmw@ V157 `v I 139 /37 13a l 2 March 22, 1932. H. MEHSERLE PAHING MACHINE vFiled Deo. 20, 1927 10 Sheets-Sheet l0 Inventor y om m A .K d 5 Mu M ,uv W e H., y B 0 Ym Z0 Mm O ifi) machine es viewed Patented Mar. 22, 1932.A

nanny transenne, or nocnnsfrnnynnw veninL AssIGNcR maximin MnHsnaLncr nocnnsrnn,

`New 'venirl rannte MACHINE( Application neaneeembefeo, 1927. g serialy No. 241,367.

.The object of this. invention is to provide av machine-for fee-ding, paring; coring .and slicing apples. x

Another object of the invention is to separate the operating parts so that: the driving mechanism may he enclosed in a gear .casing to insure its proper lubrication. and protection kagain-st rusting7V the remaining parts only being exposed outside of the gear casing.

that will ,drive the'.paringmechanism at a standard speed and during the paring operation and m'oive theiparts thereafter atan increased Vspeed to return them to the starting position.

Another object is to providey anautomatic teedby whichV the; apples are placed on the spit yfor the peeling operation.

Another object is to provide an improved paring device and means for feeding and controlling it.

. Another object to provide an: improved f'ccrino and slicin device.

Y Anotherobjectis to providean improved form of clutch by which the spit isintermittently driven. f

yThese .and other objects. ofthe invention will be `fully illustrated in the drawinga de-y scribed in the specification-and pointed out `in the claims at the end thereof. f

in the drawings: i ,f f Figure l is a lvertical longitudinal section -tlirough'the'machine on the line lm l of Figure 5.

' Figure 2 is a vertical longitudinal section through the machine on they line Qmfmcf Figure 5.

` Figure 8 is a vertical longitudinal section through the machineon the line '3m-Sw of Figure 5.

Fio'ure 41; is a vertical longitudinal sectionv ne through the machine on the line Lim-4m yof Figuren n .p f

Figure 5 is top: plan view of the machine with thecover or the gear case removed;

Figure 6 is a side elevation of the completefrom the lower side of Figure k5.Y

Figure i is a front elevationof fthe ina- Another" object is to provide `mechanism Y 16m, 16m yof Figure 15.

chine showing the feeding and paring mechanism..- y. 1

Figure 8l is a side elevation of Athe feeding and paringmechanism viewed from the upper right hand corner of F igure.y Y

' Figure 9'is atop planview of'the'fparing 4 mechanism, 'the parts or which are showny in dierent-'position' than those shown yin Figf ure 5.

Figure `l() isa vertical section through the paring machine on the line 10m-10x ofFigure 9. f'

Figure ll .is a horizontal'section through the paring mechanism on the yline lime-11m of Figure 103, the-ligurel 'being -turned 90! degrees from normal. y 4

Figure l2- is a front kelevation kci" the clamp-y ing and feeding device by which vthe apple `is clamped and fed kto themachine, the device being 'shown inA vits lowest position with the jaws open. This is similar tothe fulll line .position of Figure 8; l

Figure vlllis a lvertical section through the feeding Vand clamping device on 13:67-13:12 of'Figure l2'.

fthe kline Figure 14 is a topk planview of the feeding and clamping device at thetop of its fmovement corresponding to the dotted line yposition shown in'Figure 8', in which positionfit standssubstantiallv at right angles to the position shown in Figure l2.

Figure l5. is a vertical section throughthe clutchplaced inside the gear casing, the sec-- 'tion being taken on the line 15x-15m of Fig! ure 4. p

Figure 15-'-A is a detail view of the clutch of. Figure l5 with the clutch members drawn apart. y f

Figure 16 is a vertical section on the line Figure l? shows a modified form of the apple push o' therewith.

Figure 18 is a `front elevation of the mecha-y nismfshown in Figure 17 viewed from the 1 f l*`-igu1'e']r9is' aV horizontal section on the line 19a", 19xo'f Figure l7vshowing the spindle to n which the apples are transferred from the'` time they are ,cored .until they are sliced.

and the Slicer that cooperates In the drawings like reference numerals in- 3- dicate like parts.

In the drawings reference numeral 1 indicates the box that forms the gear casing. Mounted to rotate in suitable bearings provided inside and outside of the box is the power shaft 2 which is driven by the pulley 3.

eyed to this shaft is a large gear 4 and a pinion 5. The gear 4 meshes and drives the idler 6 which meshes with and drives the pinion 7v which is rigidly fastened to the shaft 8 by a left hand thread 9. As shown in Fig. 15 the right hand end of this shaft has a square portion 10 formed therein, and a collar 11 is provided at the end of the round portion 8 which bears against the shoulder formed atthe end of the square portion 10 and forms a thrust bearing thereon which engages with the end of the bearing 19. This collarV 11 is keyed to the shaft 8 and rotates therewith. Splined on the square portion of the shaft 1() is ya grooved shifting collar 13 having two or more pins 14 on the forward facethereof extending parallel to the shaft l8. Adjacent to this shifting collar 13 is the collar 15 having eight holes in the face thereof which holes also extend parallel to the shaft 8 and are adapted to receive the pins 14 as the sliding collar 13 is moved toward and awayfrom the disc or collar 15. The eight holes in the collar 15 are spaced apart 45 degrees between centers so that the slidingcollar 13 will complete its engagement with the collar 15 by turning not to exceed 45 degrees at any time. The collar 15 is fastened on the same shaftthat carries the spit 16, and while the apple is being placed on the spit'it is desirable to vhave the spit stationary, but after the apple has been placed on the spit itis necessary to rotate the spit in order to peel the apple. Hence the need of this clutch to drive the spit intermittently. The eight holes in the collar 15 are reamed out on the end or counter sunk so as to quicken the engagement of the pins 14 therewith and cause the spit to rotate and correspondingly shorten the idle period of the spit.

The groove in the shifting collar 13 is engaged by a shifter 17 threaded on the shaft 18 which shaft slides in the bearings 19 and 20. The shaft is threaded as shown'in Fig.

15 to give adjustment to the shifter 17 which is locked in place by a nut. VAlso threaded 0n the shaft 18 is a sleeve 21 which is threaded for adjustment on the shaft and is locked in' place thereon by a lock nut. vThis sleeve carries a stud 22 which is provided with an anti-friction roller that engages in the slot yin the arm 23 that is pivoted to swing on the stud 24. This arm carries an anti-friction roller 25 that engages with the rim of the cam 26 which is keyed to the shaft 27 and by 41 Yis 'no' longer necessary.

which the arm 23 is moved positively to the left in the direction indicated by the arrow in Fig. 15. The arm 23 is moved in the other direction by the spring 28 which encircles the shaft 18 and presses against a flanged collar 29 threaded on the shaft 18 by which the shaft 18 is always moved to the right as shown in Fig. 15 so that the roller 25 is firmly held against the high part of the rimof the cam 26. The cam 26 operates to open the clutch, and the spring 28 operates to close the clutch when permitted to do so after the high part of the periphery of the cam has passed the anti-friction roller 25. The roller the collar 15 makesy a positive engagement therewith and after this engagement is completed it is not necessary for the fork in the shifter 17 to put pressure on the shifting collar 13. The fork therefor puts pressure on the collar 13 only when it moves it into and out of engagement and at all other times it floats loosely in the groove of the collar and avoids unnecessary friction. The outer end of the spring 28 presses against the seat 30 which is held in place by an adjusting screw 31 threaded in a housing cap 32 which is carried 0n the housing 33 which is fastened inthe gear casingl of the machine.

On ther cam 26 is provided two mutilated beveled gears 34 and 35, the gear 34 having a short radius and the gear 35 having a long radius; These mutilated gears are driven by the bevel gear pinions 36 and 37 which are not mutilated and which are keyed to the shaft 38 and by which shaft they are driven with a uniform angular velocity. The shaft 38 is driven by the gear 5A which in turn is f vby the pinion, it being understood that when the first pinion 36 begins to mesh with the pinion 34, only one tooth of each 1s in engagement and an abnormal strain 1s thrown on ythese two engaged teeth. It is at this instant that the pin 4() engages with the pin 41, these pins serving as driving teeth which take part of the strain of increasing the angular velocity of the cam 26, thereby relievingr the strain on the two teeth that are engaged in the gearsf34 and 36. Asy soon as the engagement of the gears 34 and 36 has gone far enough to place two teeth on each gear in engagement, the assistance of the pins 40 and These pins are provided forv the purpose ofl preventing ,the

breakingof atooth in either :gear 34, and 36 on the firstengagementof the gears. The cam 26 is .rotated by these pinions 36 and 3? at different angular velocities. Vhen the pinion 36 meshes with the mutilated l,gear 34, the cam 26 will be rotated witha high angular .velocity and when thebeveled pinion 37 meshes with the lmutilated, gear 35 the cam .i V26 will be rotated with a low angular velocity. This changeinthe angular velocity of the cam is for the purpose of glvlng to the paring knife a slow forward movement duringl the pa infr operation? and yixquick return movement of the knife afterV the parl-ng opereion is finished as will presently be fdee s A bed Y @n the baokof the plate of the cam 26 yopposite to the gears 34, and isgprovideda cam i-Zrvhich consists yof a mutilated Vflange or rib, which is concentric with the'shaft'which Thisy cam extends" paring; mechanism and the arm that carries the Gering spoon about 3.0; degrees as will presently be'described. n i

On their cam plate is also` provided aboss on which iscarried a stud lwhich in turn carries the roller that engages with the. cam plate 47.' @neither side of the roller and en 'aGinO on o a osite sides of the cam olafe b P3 .L

vlf)

l? are the side plates 48 .and49, which holds Vthe cam plate l? in an .upright orvertical posin tion. This stud i6V extends about three inch es out fromr the plate 26 and the .cam plate if? which is driven thereby is offset-from the f cam plate v26 far renough to vclear `the cam .y

This is made possible by the length `of the stud. This cam plate khas afsleeve at the upperend thereof which engages loosely kwit the shaft 51 soas to permit the shaft. 5l to turn therein.k At opposite ends of thissleever 50 are the collars y52 and 53 which are'rigldly fastened to the shaft by suitable set screws. yThe collar 53 has a stud thereon vwhich supports the roller 55 which bears against the cam l2 on the rotation of thecam 26 and by which the shaft 51 is oscillated to move the Darin :j knife away from the apple or the spit, after the cam 42 has moved beyond tl 557 the. paring knife is released the. and is free to be moved toward the app= will presently7 be described. v The shaft 51 extends outside of the ,gear casingfat both ends and slides andoscillates in bearings 56 and 57 providedy therefor. an endw-ise/movementof about 6%and an oscillating movementy of aboutf30jdeg'rees.

Vll. The turntableswings in tl lt hask On the/.fright hand end of the shaft and outyside of the vcasing as shown Von the right of Fig. 3), it 'carries the paring mechanism and the coring spoon arm, the details of which yareshown in Figs.-6 andl?.l

' Below the shaft r51 is prm'idedy a guide 58 which is rigidly fastened to the gear casing and extends parallel to the shaft 5l and is used to partly controlthe moving,` of the paringmechanism. l This guide consists of two guards suitably spacedapartfto form afslot in whichthe lower; end of the frame 59 that su i Jort-s the )arinv mechanism makes'slidingr f engagement. y Y

This frame 59 has two bosses at the top 60 and 6l that make sliding engagement with the shaft 51. These bosses are connected by the yoke 62. Y, Rigidly fastened to the shaft 5l is thel cranky 63 which swings with the shaft between-the bosses and 6l. This crank is fastened to the shaft by a set screw 64. The lower end of the crank 1s forked and between the forks is carried the shaft 65 on ywhich *isy mounted toswing` the link 66 which is shaped Vlike abell crank. On the long arm of the link 66 is a boss 67 which carries a shaft 68 with whichengages ay fork carried on the turn table suppor ino; bracket 69 that supports the upright' shaft 70 which on its lowerend carries.theturntable 7l.` This turntable at its broad end-as shown in Figures V9,y 10 `and 1l is provided with a recess 7:?,

which pivots around lthe nin 73 that is stationary on the guidel. Thispin 73 and the shoulders 273A d 73B on each side of it forni stationary rack which causes the turn table' As the knife is cutting the peel offfof theapule. The. knife starts in atone. end of the ap L andA turns around the apple`r as the app-le rofates, cuttingr thepeel off one continuous" strip as the knife 'advances fromits position I at oneend of the apple to the final nasi-tion et the other end of the apple'. The turntable 7l is provided with an'elongated slot which extends from near the outer end ofthe turn table toward the.' shaft YO. The 'line bfA the slot .75 is slightly oset from the center of the shaft as appears from Fin". il.

f `f This permits the knife to get closer to the Hcenterjofthe apple at the blowend thereof when the turntable is in the full line position of Figllf' and holds thek ife out nslightly when the turntable is in thel dottar line positionfof F ll so that the paring knife will not come `in Contact withw the shaft 76 this angle while los l head 31. The long arm of the bell crank has l notches therein with which engages the upper end of the spring 82, the lower end of which engages with the outer end 83 of the turntable 71. The slot between the forked ends ofthe arm 77 is offset to correspond with and i to be parallel to the slot 75 in the turntable.

The contraction of the spring 82 moves the knifehead 81 to the left as shown at the bottom of Fig. 10 and holds the knife against the 4 apple. On the shaft 70 is provided a bracket 83 which is adjustably clamped thereon and f which can be moved up and down thereon.

This bracket is provided with a stop 84 with which the 'rod 80 engages and which limits the movement of the rod and the apple paring head toward the apple. This bracket is moved down on the shaft when the machine is used to pare large apples, and is moved up on the shaft when the machine is used to pare small apples. The paring head comprises plates 85 and 86 which support the gauge 87 and cuttingvblade 88 respectively. These plates are connected by the C shaped bar 81 which leaves the plates open at the back and on Yboth sides so that the stem and the peeling will not clog the knife, but can fall away therefrom.

The turntable bracket is mounted to swing on a shaft 90 and is provided with a boss that engages this shaft. On the lower end of the short end of the link 66 is provided an adjustable stop 91 that engages the boss of the turntable bracket by `which the movement of the link 66 is limited. This stop limits the pressure of the turntable on the guide 74 so that it moves along it correspondingly easy without friction and without wear.' On the boss of the crank 63 is provided a seat on which is clamped a two armed bracket 92. The set screws 64 that clamp the crank 63 `to the shaft 51 pass through openings in the base of this bracket 92, and nuts 93 on the set screws 64 serve to clamp the bracketin place on the seat, and also lock the set screws 64. On this bracket is provided the two arms 94 and 95 as shown in Fig. 9. Each of these arms is provided with notches with which engage the springs 96 and 97 that rock these arms with the shaft 51 and hold the paring head and coring spoon in position during the paring operation, which position is partly fixed by the stop 91. lvhen the paring is finished, the

paring head continues to move along with the shaft 51 being driven by the cam 47 engaged by the roller 45 on the stud 46. When it reaches the end of its movement it is'caused to move in the reverse direction by the quick return movement above described, and during the quick return movement the paring head is swung away from the spit by the engagement of the cam 42 with the roller 55, and after the cam has passed the roller the paring head is moved back by the springs to the original position from which it starts the paring of the apple. While the knife and coring spoon are swung away from the spit by the engagement of the cam 42 with the roller 55, the spit is exposed to receive a fresh apple.

The apples are fed mechanically to the spit by a mechanism that will now be described. Mounted across the frame of the machine below the spit is a shaft 100 on which is clamped an arm 101 which carries the apple feeding mechanism and vanfarm or crank 102 byy which the shaft 100 and arm 101 are rocked. Connected to the arm or crank 102 is the link 103 which passes under the gear casing and is connected to the lower end of the arm 104 which is rigidly fastened to the shaft 105. This shaft 105 has an intermittent endwise movement of about (i1/2 which is secured as follows: This'shaft slides in a bearin 106 shown at the upper left hand corner of *igures 2 and 5 and in a bearing 107 at the upper right hand corner of Figures 2 and 5. On this shaft is provided a sleeve 108 clamped in place thereon by set screws from which sleeve extends downwardly a cam 109. Inthe gear casing is provided a rotating plate 110 which carries a stud 111 which is provided with a roller that engages in the slot 112 of the cam 109 and as the plate 110 rotates the shaft 105 is moved endwise corresponding to the shape of the cam slot and the movementy of the stud 111 therewith. This plate 110 is also provided with blades 115 thereon which serve to splash oil in the gear casing and assists the lubrication of the machine thereby.r By this means the shaft 105 and the link 103 is given an intermittent and irregular cycle of movements by which the me chanical feed for the apples is operated,

Y which feed will now be described.

when the parts are in wthe position shown in Figure 12. The parts are in this position when the jaws are ready to receive the apple. Mounted on the back of the plate 120 are the guides 131 and 132. Mounted to slide in these guides is the rod 133. This rod is threaded intoa cross head 134 which slides in a slot 135 in the plate 120. In this cross head is stopping, and the change in velocity gradual so as to avoid jerking and unnecessary strain. When the anti-friction roller is passing through the concentric portion of the cam as shown on the left in Fig. 2, the cam is held idle and the feeding jaws are held in the position shown at the bottom of Figure 8. It

is at this point that the apple is placed in the feedingvj aws. When the roller gets to the top of the concentric portion of this cam, the cam begins to move and then the feeding jaws close and the feeding device begins to raise, and the apple is carried toward the spit. When the stud 111 is on the right hand side on thc horizontal center, the cam plate has made its further movement to the right andy it is at this instant that the pushing of the apple on the s it has been completed as shown in dotted lines in the middle of Figure 8. Thereafter the gripping jaws open, and the feeding device be ins its return movement as' the stud moves own from the horizontal center past the vertical center to the place where it holds the cam idle, and during this movement the feeding device returns to the position shown in full line at the bottom of Figure 8.

It will be understood that the cam 26 and plate 110 are both keyed to the same shaft and rotate in unison the angular velocity being varied by the mutilated gears shown in Fig ure 1.

The stud 46 rotates with the cam 26 in the direction shown by the arrow in Figure 3 and in the direction as shown by the arrow in Figure 1, Figure 1 showing the opposite side of the same plate.

The stud 46 with its anti-friction roller engaves the cam 47. As shown in Figures 1, 2

3 the cam 47 is in the position that it will occup when the paring ofthe apple has been comp eted and the knife has goneto the end of its movement beyond the apple.

As the stud moves down to the right it causes the knife to move back to the starting point with a quick return motion, the most of which movement is completed when the stud 46y gets to the bottom of the vertical center line of the cam 26, and thereafter the plate 47 moves to the right in Figure 3 a little further with a gradually reducing movement until it comes to rest when the stud engages the concentric-portion of the cam.

The quick return motion is due to the com bined eifectof the pinion 36 and mutilated gear 34 shown in Figure 1 and the cam 47, it being understood that the plate 26 moves with an increased angular velocity while the pinion 36 meshes with the mutilated gear 34 and itis during this part of the rotation of the plate 26 that the stud 46 is moving downward fis transferred to the rod pushing tion caused by the cam 47 and the gearing,` 70

the coring spoon and the knife move back from the forward end of their movement, and in this backward movement the coring spoon carries the apple back with it and awayfroin' the spit, and as they approach the end of this movement, the cam 42 operates to cause the coring spoon and the knife to move from thc position in which the coiing spoon is concentric with the spit, and the knife is almost in line with the spit to the position shown in' 80 Figure 18, the coi-ing spoon swinging to the left, andthe knife swinging to the right to permit the feeding device to pass between them and place another apple on the spit.

The coring spoon and the knife remain spread apart in this position until the feeding device moves in the reverse direction to its starting point to receive another apple. Thereafter the coring spoon moves back to a position concentric with the spit, and the knife moves" to the position in which it will start the peeling of the apple and the cycle of operations will be repeated indefinitely in this way. The coring spoon removes the kapple from the spit because it is a half cylinder in width as is shown in Figure 8, or substantially a half c linder in width as is shown in Figure 10. Wlhile the coring spoon is held in this left hand position, the apple is removed therefrom by the fingers carried on the stripper plate 160 carried onthe feeding device which at thaty time is carrying a fresh apple up toward the spit. When the apple is removed from the coring spoon, it is transferred to a stationary rod 162 which passes through the 105 i hole in the apple that has been made by the coring device. A series of apples are strung on this rod one after another, each apple that the apples ahead of it along the rod. T apple on therod comes into .contact with the slicing device 163 which consists of a series of knives set radially in a frame-through which the apples are pushed. These knives cut the apples into quarters or eighths or any 115 other number of segments that may be dcsired corresponding to the number of knives that are placed inthe slicing device.

When the stud 46 is 180 degrees from the position shown in Figure 3, the plate 47 bc-A 120 gins to move to the left with a motion that is due to the combined effects of the action of the stud 46 and its anti-friction roller on the up per part of the cam 47 and the mutilated gear 34 and the pinion 36. This movement' 1225 continues until the stud has approached within about 70 degrees of the vertical center. Thereupon the'mutilated gear 35 meshes with the pinion 37 and is driven by it and the cam' 26 thereupon rotates with a reduced angular 130 e foremost .ais Boghe?? 'velocity which 'continues VLuniforinduring i the peeling ofthe apple. `G slfe'jpeeli'ng ofthe apple is completely perforinedwhile the nin tilated gear 35 is in inesh with the pinion.

r After the peeling of the apple has been `Vconiplete'd then the pinion 36 meshes witht'ie `mutilated gear'e'and drives the cani 26 again -with'an increased angular velocity carrjf'ing the knife beyond the yapple and cansing'the .coring spoon toffinish coring the apple, it being understood that the coring spoon be- ;Oinsito enter-the apple when the apple is "2. peeled, the 'coring spoon follow- Ll of about 1%. y he'understood that'thegear casing is gtandhas twoorthree inch s ofoil in the hcttonrthereof so thatY all the oving brica'tfonl This is supplemented by vion for .which purpose apninpi is placed on the end of the n the casing, the piston of which vpinnp recip-r roeates with the rod 105. This pinnp draws oilfrointhe hottoinof the gear casing-andforce-s it out through the lvariousparis of "ti-le' machine .in the gear. casing that needs,

special lubrication.

lt willv also be understood hat when the knife retiirnsit lrnoclrs thecjore of the preceding apple off'k the spit. lfitfails to do Y this'the Ainert apple placed on the spitvwill push the core cffthe spit.r See Figures 8 and lO. The shape 'of the spit is shown iinhige ures8 and l0. The spitconsists of a web with flange 16A.'turnediiponk each side edge thereof and oneorniore teeth 16B vstruck up in the Vweb and ezvtendi'ng rearwardly thereof. The spit is adaptedjto slit the Core of the apple lengthwise .into two halves 4frornV one end to ynear the other end as the apple pushedon thespit. lWhen the corer cuts the core from the apple it leaves a thin shell of the apple outside of the spit that is'adapted n. to lightly hold the two halves ofthe core tol gether on the spit. hecorer then' removes the apple frorn the rspit lsaving the vcore'in place on the spit.' The base at the rear ofk the spit is tapered or beveled atfl'C.V When the feeder operates toput the next apple on" the spit, theA fresha-p'ple piishes aheadofit'V the core of the preceding apple, andthe bevel at the base of the spit splits'the core apart in two halves whichwill;tnendroi? Gift-hev or be t. rown off by the subseqiient rotation o rof the spit.k Therelation of theparts for this purpose are shown in rFigs. 8 and l0, andthe spit rotates `in the salire-tion of the arrow shown in Fig. l0.` Theispit and mounting thereof is 4substantially thesaneas isy shown in iny ,previous application No'. 220,034ile'd sepais, 1927/.

`While l have described this as anv apple paring machine it` will' be yunderstood that it ca. jhe usedto pare'otherrfrnits such as'pears,

quinces, etc.

mounted to swing inline therewitln'an anti# lto drive the' spit, connections between saidf` n s casing will beA lnhri'cated by` rodlG entside of 'to receive an apple at one end of its Inovefl'lfelafilnt: i 1.1111 @an apple yparing l maniae piatf mounted to rotate therein',`- saidfplalte a @ain on the periphery thereof, an! arn'i' friction roller carried onsaid'arrn adapted to be engaged by thel high part ofthe ,cain`, said arin having a slot formed onY the lowerv Y end thereof,"a "spit, ai chitch'inernber adapted clutch :nienib er andsaic'l slottedl arin 'by which'y the .clutch member? is moved' on" theV rotatioiiVK ofthe ain to open theclutch Vandperinit the closingl of the clutch.'y

2. In' a'paringimahiiie, af'revolvingfspit gli capable of,y supporting an'apple, a yparing knife capable ofparingthe 'apple supported onithe spit, a gear casing;operatingeleinents;

ofthe machine comprisinggears and shafts and cams inside of said casing,jashaft inovved longitudinally and rocked by'l said mecha-y Y nisrn, said shaft extendingthroughfthe gearf casing and supportingthe'paring knife oLit side of 'the casing, a. revolvfing shaft' driven by the elementfswithin Y the leasing andA eX`-,

Vtenohingoutth'roingh the casiiigysa'id spit car'- rie'df'byy and revolving with said shaft.

3..,11'12111 apple paring machine,the coilnbiv-y nation kof a paringknife, a single spit Aadapt ed to hold and rotatealltheapples pared by said klnnife, a shaft on which saidspit is car-y ried yand by which itisrotated onF affixed axis, a clutch for intermittently rotating said shaftand spit, said clutch engaging said shaft 'Y to kdrive it by an endwi'se inoveinentin thel clutch along the shaft, A n y n n 4. In an apple paring machine, the combination of a spit, a shaft supporting said spit and yrotating therewith,l a second shaft `continuously driven for driving the first named shaft, l'said shafts kboth having axes in line with each other, and a clutchconnecting the. second shaft to the first shaft whereby the first shaft is'inkterrnitten'tly'v driven by second c 5.7111 anapple paring machine, the combination of a spit, ashaft supporting said spit and rotating therewith,.a second shaft con-` tinuonsly driven for "driving they kfirst named@ shaft-said shafts rbothy having axes inV line with'eachotherand achiteh connectingVVV the y second shaft to the iirst'shaft whereby the firstshaft is intermittently driven by the se:`A n ond'rsh'aft7 an apple' feeding device adapted ment and-adapted 'to place it on the spitA at the other end of the movement, means to causesaid feeding device to force the apple on thespit when the spit is at rest."y Y. i 6. In an appleparing machine, the conibi nation of a fspit adapted to hold the Lapples n during the lparing operation,- a `corer adapted to cntV the coreont oftheapplesheldby said spit, said 'corer being adaptedtosuppdrtthe, in.,

appleandcarry itaway frointhe yspiia'rod IL its.,

to which the apples are carried by said spit, means for pushing the appl-es from said corer to said rod, said apples being threaded on said rod in series.

7. In an apple paring machine, the combination ofa spit adapted to hold the apples during the paring operation, a corei` adapted to cut the core out of the apples held by said spit, said corer being adapted to support the apple and carry it away from the spit, a rod to which the apples are carried by said corer, means for pushing the apples from said corer to said rod, said apples being Lthreaded on said rod in series, a slicing knife at the end of said rod for slicing the apples as they are pushed alongthe rod.

8. In an apple paring and feeding machine, the combination of a. swinging arm, a feedingdcvice carried thereon, a pair of arms pivoted on pivots thereon, aws at the top of said arms, a. spring adapted to draw said jaws togetlientoggles connecting said arms, a spring adaptedto draw said aws together, toggles connecting said arms adapted to hold said jaws apart when on one side of the center and adapted to let the jaws come together when on the other side of the center, a rod to which' said toggles are connected and by' which they can be moved in either direction fromone side of the center to the other side of the rcenter rto open or close the jaws, a spit on which the jaws are adapted tojplace an apple, an abutment placed on the machine frame is close' proximity -to the spit, said rod being adapted to engage said abutment to open the jaws and release the apple on the spit.

9. In an apple paring and. feeding machine, the combination. of a swinging arm, a

`feeding device carried thereon, a pair of arms pivoted on pivots thereon,y jaws at the tcp of said arms, a spring adapted to draw said jaws together, toggles connecting said arms adapted to hold said jaws apart when on one side'of the center and adapted to let Vthe jaws come together rwhen on the other side of the center, a rod to which said toggles are connected and by which they can bc moved in either direction from one sidek of the center to the other side of the center to open` or close the jaws, ngers on said. arms below the piv ots. stops carried on the machine frame with V which said lingers engage toliold the jaws open on the downward nio-vement oi the feeding device when the toggles have moved to permit the 'closing of the jaws, a 'spit on which the jaws are adapted to place an apple,an abutmentplaced on the machine frame in close proximity to the spit, said rod being adapted toengage said abutment to open the jaws and release the apple on the spit.

10. In an apple paring and feeding machinc,'thc combination ot a spit adapted to holdthe apples during the paring operation, a coreradapted to cut thecore out of the vice adapted to put a fresh apple on the spit,

a stripper carried on the feedinfr device adapted to push the peeled apple rom thek corer onto the rod.

11. In an apple paring and feeding machine, la paring head having a plate above supporting a gauge and a plate below supporting a knife with a slot between them, a C shaped narrow bar connecting these plates at the back and leaving the head `otherwise open at the sides and back for the passing of the peelings, said bar being shaped to form a recess that extends above and back of the lower edge of the gauge.

12. yIn an apple paring machine, means for gradually starting and driving the )aring mechanism'at a desired speed, and rriving means for gradually returning the paring mechanism to the starting position at an increased speed.

13. In an apple paring machine, means for gradually starting and driving the paring mechanism at a desired speed, means for gradually returning the paring mechanism to the starting position at an increased speed, a spit, driving means for operating it intermittently, feeding means operating to place apples on the spit while the spit is stationary and paring mechanism operating to peelthe apples while the spit rotates.

14. In an apple paring machine havin a spit for holding the apple, a turnta le bracket, an upright shaft therein, a turntable adapted to swing thereon, slots at the top and bottoni of the turntable, a knife carrying arm pivotally mounted in the upper slot adapted to swing in the lower slot, the slots being in line with each other and offset with respect to the axis of the shaft on which the turntable swings, thereby causing the paring head to approach closer to the axis of the spit when the paring operation begins and to stop short of the spit when the paring operation ends.

n 15. In an apple paring machine, a stationary frame a shaft member, a frame movably mounted thereon, a bracketfpivotally mounted in the frame, a turntable supported by the bracket, and a knife'pivotally mounted in theturntable' and means for moving the shaft member back and forth and swinging it.

16. In an vapple paring machine, a stationary frame a shaft member suitably supported thereon, and means mounted on the shaft for coring andparing the apple and means for moving the shaft member back and forth and swinging it. 17. In an apple paring machine, a stationary frame Va shaft member suitably supported thereon, a frame slidably mounted on the shaft, a bracket pvotally mounted in the frame, a turntable supported by the bracket,

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connections between the shaft and the supporting ,bracket whereby on the turning of the kshaft the bracket is rocked without rockingthe frame, a paring knife being carried `by the turntable and bracket and adapted to rock therewith and means for moving the Shaft member back and forth andswinging it. T18. In an apple paring machine, a stationary frame a shaft member suitably supported thereon, a Lframe slidably `mounted on the shaft, a bracket pivotally mounteu in the frame, a turntable supported by the bracket, connections between the shaft and the supporting bracket whereby on the turning of the shaft the bracket is rocked without krocking the frame, a paring knife being carried by the turntable and bracket and adapted to rock therewith, an arm member supported on the shaft, a coringspoon carried at the end of lthe arm, the shaft and coring spoon rocking in one direction and theV bracket and the knife rocking in the 4other direction and means for moving the shaft member back and forth and Swinging it.

19. In an appleparing machine, a stationary frame a shaft member slidably and rotatablyy mounted thereon, a frame having a rectangular opening therein supported on-tlie shaft, the shaft being adapted to make sliding and swivelled connection with the frame, a knife operatively connected tothe shaft, a stationary guidey member rparallel to the shaft,

the frame being adapted to engage with theguide and held thereby in an upright position onthe shaft, a crank in the rectangular opening fastened rigidly to the shaft and swing-k ing therewith, thereby causing the frame to move with an endwise movement of the shaft, springs connecting the crank and frame, whereby the crank is normally held in posi tion for operating the knife, the springs being adapted to yield for permitting the crank to swing, thereby moving the knife from the paring position@ Y 20. In an applel paring machine, a stationaryk frame, a shaft member mounted thereon, a turntable slidably positioned on the shaft, a. paring knife operatively connected with the turntable., said turntable havinga recess inthe base thereof with a shoulder on each side of said recess, a rack on the machine comprising'a pair of shoulders spaced apart and having a pin-in the open space there between, the pin being set upward from the shoulders on the rack in suc-h a manner that the shoulders on the turntable may be located on each side of the pin, the pin being adapted to engage the shoulders on the turntable and to cause the turntableto swing around the pin, the sides of the turntable being adapted to bear on and slide along the rack.

2l. In an apple paringmaohine, the combination of a sliding and rocking shaft, a frame mounted on the shaft, a rectangular f opening therein, bosses on each side of the bina-tion of a. sliding and rocking shaft, a`

frame mounted on the shaft, a rectangular opening therein, bosses on each'side of the opening, the shaft being adapted to have sliding yand swivelled connection withpthe bosses, a stationary guide in the machine par- .f

alleltothe sliding shaft, a tongue portion on the bottom of the frame adapted to engage J with the guideand hold the frame in an upright position on the shaft, a crank member in the rectangular opening rigidly attached to the shaft for swinging therewith, thereby causing the frame to move with the shaft. j

p 23. In an apple paring machine, the combination of ka slidin and rockin@ shaft a frame mounted on the shaft, a rectangular 'opening therein, bosses fon' each side of the opening,thek shaftbeing adapted to have sliding and swivelled connection with the bosses, a Vstationary guide in the machine parallel to the sliding shaft, a tongue portionion the bottom 'of the fra-me adapted to engage with the guide and hold the frame in an upright position on the shaft, a. crank member in the rectangular opening rigidly attached to the shaft for swinging therewith, thereby causing` the frame to move with the shaft, forked end members extending from the cra-nk, a crank lever'. pivotally mounted between the forked ends, a supporting bracket pivoted in the frame and having bosses at the top/thereof, a turntable mounted'in the bracket, the forward end of the crank being pivotally connected to the bosses, a knife supported vby the turntable, the frame and members supported thereby being operated on the rocking of the sha ft for Giving movement to the knife.

24. A fiuit feeding and paring machine comprising a driving shaft, an auxiliary shaft parallel thereto and driven thereby at a uniform angular velocity, a spit, a clutch for driving it and means for driving.v the clutch, a cam plate for opening and allowing Y the clutch to be closed, two pinions mounted on the auxiliary shaft adjacent the cam plate, two mutilated gears of different radii vat,- tached to the plate, the gears being placed opposite to the mutilation in the other gear, and the pinions being adapted to mesh intermittently with the mutilated gea-rs: for driving the cam plate at different angular velocities. l 25. Aifriiit feeding and paring machine comprising a drivingl shaft, an auxiliary f shaftparallel thereto and driven thereby at a uniform angular velocity, a spit, a clutch for driving it and means for driving the clutch, a cam plate for opening and allowing the clutch to be closed, two pinions mounted on the auxiliary shaft adjacent the cam plate, t'wo mutilated gears of different radii at tached to'the pla-te, the gears being placed opposite to the mutilation .in the other gear, and the pinions being adapted to mesh intermittently with the mutilated gears for drivv ing the cam plate at different angular velocities, a lug portion extending from the auxiliary shaft between the pinions, a cooperating lug element on the cam plate loetween the mutilated gears, the lugs being adapted to engage and assist in driving the cam plate with increased angular velocity on the engagement between one pinion and the mutilated gear of short radius, thereby relieving the strain from the cooperating members.

26. In an apple paring machine having a feeding and paring mechanism, a shaft mounted lengthwise on the machine and adapted to rotate at a uniform speed, an auxiliary shaft mounted on the machine transversely thereto and adapted to rotate at a variable speed, means for driving the auxiliary shaft at variable speed from the first named shaft a pair of disks mounted on the auxiliary shaft to rotate therewith, each of the disks havin a stud thereon, a sliding cam engaged by eac of the studs, the studs being adapted to operate the feeding and paring mechanism.

27. In an apple paring machine having a feeding and paring mechanism, a shaft mounted on the machine, an auxiliary shaft mounted transversely thereto and adapted to rotate at an increased and decreased angular velocity means for driving the auxiliary shaft kat variable angular velocity from the first named shaft, a pair of disks mounted on the auxiliary shaft and adapted to rotate therewith, each of the disks having a stud thereon, a sliding camengaged by each of the studs, the cams being adapted to moveforward and backward on the rotation of the auxiliary shaft, a gear casing for enclosing and protecting said disks and cams therein, one of the cam members being adapted to' operate the feeding mechanism while the other cam member operates the paring mechanism, and portions of the shaft members being adapted to extend through the casing for moving the feeding and paring mechanism outside thereof.

28. In an apple paring machine having a feeding and paring mechanism, a shaft member, a pair of disk elements mount-ed on the shaft and adapted to rotate therewith, means for driving the sha-ft and disk members tolether at variable angularvelocities, an auxlliary shaft member adapted to rock and move endwise, a second shaft member adapted to move endwise, sliding cam elements y supported by the auxiliary shaft and second shaft members, a stud on each of the rota-ting disks, one stud engaging the sliding cam on the auxiliary shaft and the other stud engaging the cam on the second shaft for the purpose of moving the shafts endwise, thereby operating the paring, coring and feeding mechanism, which is supported by tohe auxiliary shaft and second shaft memers.

29. In an apple parino` machine having a feeding and paring mec anism, a gear casing for enclosing some of the moving parts of the machine, a shaft member mounted to slide and oscillate therein, said shaft being adapted to extend outside of the casing, a coring spoon supported by the shaft outside of the casing, means inside of the casing for sliding and oscillating the shaft through a regular cycle of movements. f

30. In a fruit paring mechanism, a shaft member, a pair of disk elements mounted thereon and adapted to rotate therewith, means for driving the shaft and disks together at variable angular velocities, a sec ond shaft member adapted to rock and move endwise, a third shaft element adapted to move endwise, sliding cam members sup orted by the second and third shafts, stu` elements attached to the disk members for slidably'engaging with the cam members, means for supporting the paring and coring mechanism on the second shaft member and the feeding mechanism on the third shaft, a paring knife operatively supported by the second shaft and adapted to be rocked and moved endwise therewith.

3l. A fruit paring mechanism comprising a gear casing, a shaft member mounted to slide and oseillate therein, a paring knife supported by a portion of the shaft arranged to extend outside of the easing, an arm member keyed to the shaft, arotating cam plate adjacent thereto, a stud on the rotating cam plate for slibably engaging with the arm member onv the shaft, thereby providing means for driving the shaft back and forth, a flange portion attached to the rotating cam plate for engaging the arm member keyed to the shaft, thereby providing means for rocking the shaft on the rotation of the cam plate.

32. In a fruit paring machine, a spit for rotating the fruit, a shaft member for supporting the spit at one end and a clutch member at the other end of the shaft for giving intermittent motion to the spit, the clutch member comprising a disk having a series of holes arranged concentrically thereon, a shaft in line therewith continuously driven and having a square section, a second clutch element adapted to slide on the square section,

`the second clutch member having pins thereon adapted to engage with the holes in the other clutch member.

33. In a fruit paring machine, a paring knife, a single spit element adapted to hold les 

